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gui.py
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gui.py
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from calculator import BallisticsToTarget, OutOfRangeException
import customtkinter as ctk
ctk.set_appearance_mode("dark")
ctk.set_default_color_theme("dark-blue")
root = ctk.CTk()
root.title('Create Big Cannons : Ballistic Calculator')
root.geometry("1600x768")
def represents_int(s):
"""
Check if a string can be converted to an integer
"""
try:
int(s)
except ValueError:
return False
else:
return True
def callback(P):
"""
Callback for the entries, only allow integers
"""
if represents_int(P) or P == "" or P == "-":
return True
else:
return False
def controlButton(*args):
"""
Control if all the entries are filled and enable the button if it's the case
"""
if all(var.get() for var in [xCannon, yCannon, zCannon, xTarget, yTarget, zTarget, lenghtEntry, powerEntry]):
button.configure(state="normal")
else:
button.configure(state="disabled")
def getAngles():
"""
Get the angles from the entries and calculate the angles
"""
xC = xCannon.get()
yC = yCannon.get()
zC = zCannon.get()
xT = xTarget.get()
yT = yTarget.get()
zT = zTarget.get()
cannonCoords = tuple(map(int, (xC, yC, zC)))
targetCoords = tuple(map(int, (xT, yT, zT)))
try:
angles = BallisticsToTarget(cannonCoords, targetCoords, int(powerEntry.get()), (directionEntry.get()).lower(), int(lenghtEntry.get()))
except OutOfRangeException as e:
statusMessage.set(e)
status.configure(text_color="#980404")
else:
varYaw.set("Yaw : " + str(angles[0][0]) + " degrees")
varPitch.set("Pitch : " + str(angles[0][1]) + " degrees")
varAirtime.set("Airtime in ticks : " + str(angles[0][2]) + " ticks")
varAirtimeSeconds.set("Airtime in seconds : " + str(angles[0][3]) + " seconds")
varFuzeTime.set("Time to put in fuze (in ticks) : " + str(angles[0][4]) + " ticks")
varPrecision.set("Relative precision : " + str(angles[0][5]) + "%")
varYaw2.set("Yaw : " + str(angles[1][0]) + " degrees")
varPitch2.set("Pitch : " + str(angles[1][1]) + " degrees")
varAirtime2.set("Airtime in ticks : " + str(angles[1][2]) + " ticks")
varAirtimeSeconds2.set("Airtime in seconds : " + str(angles[1][3]) + " seconds")
varFuzeTime2.set("Time to put in fuze (in ticks) : " + str(angles[1][4]) + " ticks")
varPrecision2.set("Relative precision : " + str(angles[1][5]) + "%")
# make the pitch red if it's too high or too low
if angles[0][1] == "Over 60" or angles[0][1] == "Under -30":
labelPitch.configure(text_color="#c06661")
else:
labelPitch.configure(text_color="#d6d6d6")
if angles[1][1] == "Over 60" or angles[1][1] == "Under -30":
labelPitch2.configure(text_color="#c06661")
else:
labelPitch2.configure(text_color="#d6d6d6")
statusMessage.set("Calculated !")
status.configure(text_color="#50bc54")
def main():
global xCannon, yCannon, zCannon, xTarget, yTarget, zTarget, lenghtEntry,\
powerEntry, directionEntry, button, statusMessage, status,\
varYaw, varPitch, varAirtime, varAirtimeSeconds, varFuzeTime,\
varYaw2, varPitch2, varAirtime2, varAirtimeSeconds2, varFuzeTime2,\
labelPitch, labelPitch2, varPrecision, varPrecision2
titre = ctk.CTkLabel(master=root, text="Ballistic Calculator", font=("Roboto", 60), fg_color="#1E538D", corner_radius=20)
frame = ctk.CTkFrame(master=root, corner_radius=20)
titre.pack(pady=20, padx=120, fill="both", expand=True, )
frame.pack(pady=30, padx=60, ipadx=40, fill="both", expand=True)
frame.columnconfigure(0, weight=1)
cannonFrame = ctk.CTkFrame(master=frame, width=200)
targetFrame = ctk.CTkFrame(master=frame, width=200)
cannonCoord = ctk.CTkLabel(master=cannonFrame, text="Coordinates of the cannon mount (X;Y;Z)", font=("Roboto", 16))
targetCoord = ctk.CTkLabel(master=targetFrame, text="Coordinates of the target (X;Y;Z) ", font=("Roboto", 16), padx=20)
isinteger = root.register(callback)
statusMessage = ctk.StringVar(value="Waiting calculation...")
status = ctk.CTkLabel(master=frame, textvariable=statusMessage)
xCannon = ctk.CTkEntry(master=cannonCoord, placeholder_text="X", validate="key", validatecommand=(isinteger, '%P'))
yCannon = ctk.CTkEntry(master=cannonCoord, placeholder_text="Y", validate="key", validatecommand=(isinteger, '%P'))
zCannon = ctk.CTkEntry(master=cannonCoord, placeholder_text="Z", validate="key", validatecommand=(isinteger, '%P'))
xTarget = ctk.CTkEntry(master=targetCoord, placeholder_text="X", validate="key", validatecommand=(isinteger, '%P'))
yTarget = ctk.CTkEntry(master=targetCoord, placeholder_text="Y", validate="key", validatecommand=(isinteger, '%P'))
zTarget = ctk.CTkEntry(master=targetCoord, placeholder_text="Z", validate="key", validatecommand=(isinteger, '%P'))
options = ctk.CTkFrame(master=frame, width=300)
options.columnconfigure(0, weight=4)
options.columnconfigure(1, weight=1)
power = ctk.CTkLabel(master=options, text="Number of charges", font=("Roboto", 16))
powerEntry = ctk.CTkEntry(master=options, validate="key", validatecommand=(isinteger, '%P'))
direction = ctk.CTkLabel(master=options, text="Direction the cannon is facing when not mounted", font=("Roboto", 16))
directionEntry = ctk.StringVar(value="North")
directionComboBox = ctk.CTkComboBox(master=options, values=["North", "South", "West", "East"], variable=directionEntry, state="readonly")
lenght = ctk.CTkLabel(master=options, text="""Lenght of the cannon
(From the block held by the mount to the tip of the cannon, both included)""", font=("Roboto", 16))
lenghtEntry = ctk.CTkEntry(master=options, validate="key", validatecommand=(isinteger, '%P'))
varYaw = ctk.StringVar(value = "Yaw is unknown")
varPitch = ctk.StringVar(value = "Pitch is unknown")
varAirtime = ctk.StringVar(value = "Airtime (ticks) is unknown")
varAirtimeSeconds = ctk.StringVar(value = "Airtime (seconds) is unknown")
varFuzeTime = ctk.StringVar(value = "Fuze time (ticks) is unknown")
varPrecision = ctk.StringVar(value = "Precision is unknown")
varYaw2 = ctk.StringVar(value = "Yaw is unknown")
varPitch2 = ctk.StringVar(value = "Pitch is unknown")
varAirtime2 = ctk.StringVar(value = "Airtime (ticks) is unknown")
varAirtimeSeconds2 = ctk.StringVar(value = "Airtime (seconds) is unknown")
varFuzeTime2 = ctk.StringVar(value = "Fuze time (ticks) is unknown")
varPrecision2 = ctk.StringVar(value = "Precision is unknown")
results = ctk.CTkFrame(master=frame)
results.columnconfigure(0, weight=1)
results.columnconfigure(1, weight=1)
results.columnconfigure(2, weight=1)
results.columnconfigure(3, weight=1)
results.columnconfigure(4, weight=1)
results.columnconfigure(5, weight=1)
results.columnconfigure(6, weight=1)
labelYaw = ctk.CTkLabel(master=results, textvariable=varYaw)
labelPitch = ctk.CTkLabel(master=results, textvariable=varPitch)
labelAirtime = ctk.CTkLabel(master=results, textvariable=varAirtime)
labelAirtimeSeconds = ctk.CTkLabel(master=results, textvariable=varAirtimeSeconds)
labelFuzeTime = ctk.CTkLabel(master=results, textvariable=varFuzeTime)
labelPrecision = ctk.CTkLabel(master=results, textvariable=varPrecision)
labelTrajectory1 = ctk.CTkLabel(master=results, text="Trajectory 1 :")
labelTrajectory2 = ctk.CTkLabel(master=results, text="Trajectory 2 :")
button = ctk.CTkButton(master=frame, text="Calculate !", command=getAngles, state="disabled", width=300, height=40)
cannonFrame.columnconfigure(0, weight=4)
cannonFrame.columnconfigure(1, weight=1)
cannonFrame.columnconfigure(2, weight=1)
cannonFrame.columnconfigure(3, weight=1)
targetFrame.columnconfigure(0, weight=4)
targetFrame.columnconfigure(1, weight=1)
targetFrame.columnconfigure(2, weight=1)
targetFrame.columnconfigure(3, weight=1)
cannonFrame.grid(column=0, row=0, pady=16, padx=20, columnspan=4, sticky="NSEW")
targetFrame.grid(column=0, row=1, pady=16, padx=20, columnspan=4, sticky="NSEW")
cannonCoord.grid(column=0, row=0, pady=12, padx=10)
xCannon.grid(column=1, row=0, pady=12, padx=10)
yCannon.grid(column=2, row=0, pady=6, padx=10)
zCannon.grid(column=3, row=0, pady=6, padx=10)
targetCoord.grid(column=0, row=1, pady=12, padx=10)
xTarget.grid(column=1, row=0, pady=12, padx=10)
yTarget.grid(column=2, row=0, pady=12, padx=10)
zTarget.grid(column=3, row=0, pady=12, padx=10)
options.grid(column=0, row=2, pady=12, padx=20, columnspan=4, sticky="NSEW")
power.grid(column=0, row=0, pady=12, padx=10)
powerEntry.grid(column=1, row=0, pady=12, padx=10)
direction.grid(column=0, row=1, pady=12, padx=10)
directionComboBox.grid(column=1, row=1, pady=12, padx=10)
lenght.grid(column=0, row=2, pady=12, padx=10)
lenghtEntry.grid(column=1, row=2, pady=12, padx=10)
button.grid(column=0, row=5, pady=12, padx=10, columnspan=4)
results.grid(column=0, row=7, pady=12, padx=20, columnspan=4, sticky="NSEW")
labelYaw.grid(column=1, row=0, pady=6, padx=10)
labelPitch.grid(column=2, row=0, pady=6, padx=10)
labelAirtime.grid(column=3, row=0, pady=6, padx=10)
labelAirtimeSeconds.grid(column=4, row=0, pady=6, padx=10)
labelFuzeTime.grid(column=5, row=0, pady=6, padx=10)
labelPrecision.grid(column=6, row=0, pady=6, padx=10)
# make place in the result frame for an eventual second result, those are the same as the first ones and must be hidden by default
labelYaw2 = ctk.CTkLabel(master=results, textvariable=varYaw2)
labelPitch2 = ctk.CTkLabel(master=results, textvariable=varPitch2)
labelAirtime2 = ctk.CTkLabel(master=results, textvariable=varAirtime2)
labelAirtimeSeconds2 = ctk.CTkLabel(master=results, textvariable=varAirtimeSeconds2)
labelFuzeTime2 = ctk.CTkLabel(master=results, textvariable=varFuzeTime2)
labelPrecision2 = ctk.CTkLabel(master=results, textvariable=varPrecision2)
labelYaw2.grid(column=1, row=1, pady=6, padx=10)
labelPitch2.grid(column=2, row=1, pady=6, padx=10)
labelAirtime2.grid(column=3, row=1, pady=6, padx=10)
labelAirtimeSeconds2.grid(column=4, row=1, pady=6, padx=10)
labelFuzeTime2.grid(column=5, row=1, pady=6, padx=10)
labelPrecision2.grid(column=6, row=1, pady=6, padx=10)
labelTrajectory1.grid(column=0, row=0, pady=6, padx=10, columnspan=1)
labelTrajectory2.grid(column=0, row=1, pady=6, padx=10, columnspan=1)
# status = ctk.CTkLabel(master=frame, text="Ready to calculate !", font=("Roboto", 16))
status.grid(column=0, row=8, pady=0, padx=20, columnspan=4, sticky="NSEW")
root.bind("<Key>", controlButton)
root.mainloop()
if __name__ == "__main__":
main()